1. Histopathological effects of long-term exposure to realistic concentrations of cadmium in the hepatopancreas of Sparus aurata juveniles.
- Author
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Motta, Chiara Maria, Rosati, Luigi, Cretì, Patrizia, Montinari, Maria Rosa, Denre, Pabitra, Simoniello, Palma, Fogliano, Chiara, Scudiero, Rosaria, and Avallone, Bice
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SPARUS aurata , *CADMIUM , *ECOLOGICAL risk assessment , *CADMIUM chloride , *ENDOCRINE glands , *FOOD chains , *BODIES of water - Abstract
• Juveniles of sea bream Sparus aurata were exposed to cadmium chloride for up to 120 days. • The effects of the exposure were evaluated on the hepatopancreas architecture. • In a time-dependent manner, cadmium was absorbed and stored within the tissue. • Severe morphological and functional damages were detected. • Cadmium induced endocrine disrupting effect on parenchyma. In recent decades, cadmium has emerged as an environmental stressor in aquatic ecosystems due to its persistence and toxicity. It can enter water bodies from various natural and anthropogenic sources and, once introduced into aquatic systems, can accumulate in sediments and biota, leading to bioaccumulation and biomagnification in the food chain. For this reason, the effects of cadmium on aquatic life remain an area of ongoing research and concern. In this paper, a multidisciplinary approach was used to assess the effects of long-term exposure to an environmental concentration on the hepatopancreas of farmed juveniles of sea bream, Sparus aurata. After determining metal uptake, metallothionein production was assessed to gain insight into the organism's defence response. The effects were also assessed by histological and ultrastructural analyses. The results indicate that cadmium accumulates in the hepatopancreas at significant concentrations, inducing structural and functional damage. Despite the parallel increase in metallothioneins, fibrosis, alterations in carbohydrate distribution and endocrine disruption were also observed. These effects would decrease animal fitness although it did not translate into high mortality or reduced growth. This could depend on the fact that the animals were farmed, protected from the pressure deriving from having to search for food or escape from predators. Not to be underestimated is the return to humans, as this species is edible. Understanding the behaviour of cadmium in aquatic systems, its effects at different trophic levels and the potential risks to human health from the consumption of contaminated seafood would therefore be essential for informed environmental management and policy decisions. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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